EUR 25361 EN
Reaching Out to the Future Outline of Proposals for Communication Outreach,
Dialogue and Education on Nanotechnology
Report from a workshop held in Brussels, 28-29 March 2012
EUROPEAN COMMISSION
Directorate-General for Research and Innovation
Directorate RTD — Research and Innovation
Unit G4 — Nano Sciences and Nano Technologies
E-mail: [email protected]
Contact: [email protected]
European Commission B-1049 Brussels
EUROPEAN COMMISSION
Reaching Out to the Future
Outline of Proposals for Communication Outreach, Dialogue and Education on Nanotechnology
Report from a workshop held in Brussels, 28-29 March 2012
Authors: Maria Neicu, Jennifer Millar, Daan Schuurbiers, Matteo Bonazzi
Edited by the European Commission
Directorate-General for Research and Innovation Industrial technologies (NMP) programme
Directorate-General for Research and Innovation
2013 Industrial technologies, NMP EUR 25361 EN
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Τί εὔκολον: Τὸ ἄλλῳ ὑποτίθεσθαι (Θαλῆς)
What is easy? To advise others (Thales)
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Executive summary
This report stems from a dedicated workshop delivering a fresh perspective about
nanotechnology communication to the extent that it ranked several possible priority
interventions. It reviewed best practices developed by European funded projects.
Different recommendations are summed up in this publication, offering an expert
insight of in this field. Outreach, Dialogue and Education activities have been identified
by the community of stakeholders (research community, NGOs, industry, policy-
makers, media) targeting three social groups: young people, industry and civil society
organisations, media and lay public.
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Preface
It has been said that "image is to communication what gold is to a jewel". Indeed,
communicating an image cannot evade a good, solid communication strategy
underpinning this effort, as meaningful communication aims to create a dynamic
relationship and exchange between stakeholders. This seems to be especially true in the
case of promoting good governance on nanotechnology, where the public can be less
deferential. In fact, good governance on nanotechnology depends on mechanisms for
appropriate social dialogue based on an open-minded, consistent communication efforts
aiming to foster inclusion. So, appropriate communication comes first, and we need to
set up a sound and clever method to identify whom to reach out to, since audiences are
many. Among them, youngsters, industry and civil society organisations, media and lay
public are crucial: so, anticipating how to meet their communication needs is the key.
Twenty-two communication experts convened at this workshop with the specific aim of
outlining ideas and proposal for possible future actions of nanotechnology
communication to target these three audiences across Outreach, Dialogue and
Education. Valuable insights from this collaboration regarding potential forthcoming
actions for the stakeholders' community on communicating nanotechnology are
presented and discussed in this publication. Based, as it were, on a range of best
practices developed by European funded projects, it delivers a fresh perspective on
nanotechnology communication in that it ranks several possible priority interventions.
The broad panoply of ideas stemming from this exercise is shaped in the form of
different sets of proposals which can inspire stakeholders to face the corresponding
challenges.
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To all those whose trust outshines their fears
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TABLE OF CONTENTS
1. INTRODUCTION: setting the scene..................................................................................8
2. MATERIALS AND METHODS: how does this work? .......................................................11
2.1. Open Space working groups and communication priorities ...........................11
2.1.1. AXes of interest: .......................................................................................11
2.1.2. Working groups: .......................................................................................12
2.2. "Olympics" and "traffic light" ratings for communication vehicles and messages ...........................................................................................................................14
2.2.1. Communication Vehicles: "olympic" ratings ............................................14
2.2.2. Communication messages: "traffic light" ratings: ....................................14
3. DISCUSSION: what to do? .............................................................................................16
3.1 Panel 1: Youngsters..........................................................................................16
3.1.1 Using new media vehicles .........................................................................16
3.1.2 A place for critique: the “Live Arena” of debate .......................................17
3.1.3 Coaching science teachers.........................................................................18
3.2 Panel 2: Civil society Organisations (CSOs) and industry .................................20
3.2.1 Stakeholder dialogues ...............................................................................20
3.2.2 Training session to address knowledge gaps.............................................22
3.3 Panel 3: Media and Lay Public .........................................................................24
3.3.1 Media and Lay Public as targets ................................................................24
3.3.2 Outreach....................................................................................................25
3.3.3 Dialogue.....................................................................................................27
3.3.4 Education...................................................................................................28
4. Conclusions: so what?...................................................................................................28
4.1 The EC view ......................................................................................................28
4.2 Assessment of previous actions on communicating nanotechnology .............29
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4.3 Objectives for a new communication framework along three priority lines ...30
4.4 Strategic recommendations.............................................................................30
4.5 At a glance: outline of proposals for Communication outreach, Dialogue and Education on Nanotechnology..........................................................................................31
5. OUTLINE OF PROPOSALS for communication outreach, dialogue and education on nanotechnology: KEY ACTIONS IN A NUTSHELL ................................................................32
Youngsters .............................................................................................................32
CSOs and Industry .................................................................................................33
Media and Lay Public ............................................................................................33
6. OUTLINE OF PROPOSALS for communication outreach, dialogue and education on nanotechnology: DETAILED DESCRIPTION .......................................................................35
7. Annex ............................................................................................................................53
7.1. List of attendees..............................................................................................53
Experts participating in EC-funded communication projects .............................53
External communication experts........................................................................54
EC staff:...............................................................................................................54
7.2. Acknowledgements.........................................................................................55
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1. INTRODUCTION: SETTING THE SCENE
The rationale of this work is to identify valuable ideas, proposals and relevant
actions in the stakeholders' community dealing with communicating
nanotechnology at the EU level. In this light, it aims at identifying which ideas,
proposals and actions the community of stakeholders (e.g. research
community, NGOs, industry, policy-makers, media) working on communicating
nanotechnology must, should or could develop to promote responsible
communication in this field. This work is carried out according to the relevance of
these ideas for the EU society in terms of desirable outreach (people attained),
dialogue (people involved) and education (people trained) to be achieved on
nanotechnology research and innovation. Twenty-two communication experts on
nanotechnology (listed in the appendix), many of them having participated in EC-
funded communication projects, convened at a workshop dedicated to doing so,
entitled "Communicating Nanotechnology: actions, challenges and prospects for
outreach, dialogue and education in nanotechnology" held in Brussels on 28-29
March 2012. The initiative was part of extensive knowledge processes to make a
valuable contribution to policy decision-making related to nanosciences and
nanotechnologies. This effort has been structured in two parts:
(i) The presentation of selected EC-funded outreach projects on nanotechnology
research and innovation (NANOYOU, NANOCHANNELS, TIMEFORNANO,
NANOTOTOUCH, NANODIALOGUE) and others on nanotechnology in society
(NANOCAP, NANOCODE, NANOPLAT, DEEPEN) has highlighted the main
results achieved by the EC over the last seven years in communication,
dialogue and education. The discussion has set the scene on the main
frontiers attained so far in these areas, and provided recommendations on
how to strengthen the future communication strategy;
(ii) The panel group discussions focused on three priority audiences
(Youngsters, Media/Lay public, CSOs/Industry). Building coherently on
previous experiences, they outlined needed actions for the future. So, the
Outline of Proposals for future Communication, Dialogue and Education on
Nanotechnology stems out from this structured effort as a key deliverable in
shaping the debate.
The expert meeting placed emphasis on the endogenous model of technological
development1, aiming for a better interaction between society, science and
1 Van Est R. And Brom F. Technology Assessment, Analytic and Democratic Practice. In: Ruth Chadwick, editor. Encyclopedia of Applied Ethics, Second Edition, 2012, Vol. 4, 306-320.
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technology. Nano development is not isolated from society, and the social value of
research-based innovation needs reflective critique. In order to improve
regulatory certainty, we need to deepen the current debate. “Non-expert
participation aims to improve the cognitive basis, credibility, acceptance and
conflict-resolving potential of TA (Technological Assessment)”2; thus, by involving
targeted groups (Youngsters, Civil Society Organizations, Media and Lay Public),
the policy scrutiny can only benefit from a dynamic of perspectives.
In order to support a responsible nano innovation policy, the need to widen the
participation of affected individuals and groups has become more and more
prominent. Firstly, knowledge gaps must be tackled and overcome. Secondly,
representative, participatory and deliberative processes must be employed. The
proposed communication steps (outreach, dialogue and education) aim to improve
access to information, to engage targeted groups in critical reflection and sharing
and practices, and finally, to offer opportunities of choice-making. So, the expert
meeting was deemed as an adequate opportunity to bring together key
communicators, who have been previously involved in earlier EC workshops,
consultations, projects and the development of the EC Nano-Communication
Roadmap. Establishing an open-ended discussion ground for formulating future
objectives, the experts had to present, benchmark, discuss and debate the main
outcomes and challenges from their activities. Moreover, together with other
experts and EC staff, they identified ideas and proposals to promote good
governance in future policy-making, tailoring each communication process to
specific audiences.
Starting with the afore-mentioned projects, the participants were encouraged to
discuss how these best practice examples can be further improved. Firstly, the
normative dimension of the expert meeting dealt with mapping public hopes,
concerns and expectations, as well as criteria, indicators and methods of
evaluation for the communication process. Secondly, the pragmatic dimension
implies generating a set of options for real political action (Grunwald, 2003)3. The
efforts of independent institutes working for Technological Assessment need to be
complemented by EU-funded projects focusing on communicating with and
engaging targeted groups of citizens, in order to:(1) critically diversify the
2 STOA, Science and Technology Options Assessment, European Parliament (2008). Technology across borders: Exploring perspectives for pan-European Parliamentary Technology Assessment, Study of Directorate General for Internal Policies, Directorate G: Impact Assessment, IP/A/STOA/FWC/2008-096/LOT8/C1, PE 482.684.
3 Grunwald, Armin (2003). Technology assessment at the German Bundestag: ‘expertising’ democracy for ‘democratising’ expertise, Science and Public Policy, volume 30, number 3, pp. 193-198.
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complex debate around nano, (2) empower non-experts and (3) allow
researchers, scientists and politicians to tap into the knowledge-based society.
The objective of their fruitful collaboration was to propose new ideas on how to
proceed with communication actions, in accordance to the three main priorities of
the strategy for smart, inclusive and sustainable growth4: (1) Delivering Social
Benefits, (2) Economic Relevance and (3) Concerns on Policy. The present
deliverable working paper will be a valuable input for future discussion on
proposals, actions and activities on communicating nanotechnology, because
strategically, the “alignment between technological and societal developments is
the ultimate objective”5 of technological assessment.
The experts interacted creatively and brainstormed to propose new ideas before
engaging in discussions on how to reach consensus on actions, priorities and
messages. The participants were divided into three groups according to their
individual area of expertise. Each participant made significant suggestions across
the whole communication spectrum of OUTREACH, DIALOGUE and EDUCATION.
The initial question of "To whom should we communicate about nanotechnology?"
was the benchmark to organize the roundtables, on the basis of communication
reports and previous EC workshops on nano outreach6. The workshop’s three
groups corresponded to the three target audiences, identified as priorities,
namely:
(1) Youngsters
(2) CSOs (Civil Society Organizations) and Industry
(3) Media and Lay Public
4European Commission (2012), EUROPE 2020, Brussels. http://ec.europa.eu/europe2020/index_en.htm
5 STOA, Science and Technology Options Assessment, European Parliament (2008). Technology across borders: Exploring perspectives for pan-European Parliamentary Technology Assessment, Study of Directorate General for Internal Policies, Directorate G: Impact Assessment, IP/A/STOA/FWC/2008-096/LOT8/C1, PE 482.684.
6 Bonazzi, M.(ed.), (2007A): Working paper resulting from the workshop on: Strategy for communication outreach in nanotechnology,EC, Brussels, 6th February 2007 (http:// cordis.europa.eu/ nanotechnology/src/publication_events.htm). Bonazzi, M. and Palumbo, J. (eds.), (2007): Report from the workshop – Communication Outreach in Nanotechnology: from recommendation to action, EC, Brussels, 24-25 October 2007 (http://cordis.europa.eu/nanotechnology/src/publication_events.htm). Bonazzi, M.(ed.), (2007B): Working Paper resulting from: Open Web consultation on a Strategy for communication outreach in nanotechnology, EC, Brussels, March-October 2007 (http://cordis.europa.eu/nanotechnology/src/publication_events.htm).
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This work aims to find out what kind of activities can be developed for outreach,
dialogue and education to address and engage these audiences, taking into
account their different incentive mechanisms, dynamics, levels of participation and
feedback loops between stakeholders.
2. MATERIALS AND METHODS: HOW DOES THIS WORK?
This section addresses the different methodologies and the ways they have been
applied during the workshop.
2.1. OPEN SPACE WORKING GROUPS AND COMMUNICATION PRIORITIES
The three groups took part in a plenary Open Space session on the first day.
Panellists admitted that fast and responsible deployment of nanotechnologies will
play a critical role in addressing the major societal challenges identified by the EU
2020 agenda. These technologies could help building a smart, sustainable and
inclusive growth. Balancing the potential benefits with the risks, the experts
tackled the following priorities in communication (“axes of interest”), in need of
careful formulation and consistency.
2.1.1. AXES OF INTEREST:
Increasing social reflexivity means that, besides stakeholders, citizens should be
actively involved in the design of technology, in anticipation of possible effects of
Nano innovations. Thus, for each target group (Youngsters, CSOs, Media and Lay
Public), the common ground was to make the scientific Nano development
politically legitimate, economically viable and socially desirable.
The following axes of interest have been identified across the societal, economic
and policy areas:
A. SOCIAL BENEFITS. Personalized and more effective healthcare; Energy
efficiency and sustainability; Information and Communication Technology.
B. ECONOMIC RELEVANCE. Boosting the EU’s competitive potential and
innovation; Boosting the EU’s employment figures and high market potential;
Bridging European skills, resources and infrastructure.
C. POLICY ISSUES. Proactive governance in political assessment of
nanotechnology impacts by an open and inclusive public debate and a
comprehensive, yet innovation-oriented regulation.
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D. SAFETY RESEARCH. Assessing, managing and communicating risks.
E. RESPONSIBLE RESEARCH AND INNOVATION7. This overarching concept
means that outcomes of the dialogue are fed back into both the institutional policy
making and research processes: therefore, it addresses also the discussion on
societally relevant aspects, so far identified as ELSA (Ethical, Legal and Social
Aspects).
2.1.2. WORKING GROUPS:
On the second day of the workshop, the
debate started with the need for a clear
problem definition: How to effectively
address, engage and empower key
publics to have a visible impact on the
governance of nanoscience and
nanotechnology innovation?
It continued with issue framing and
identifying information needs, opening-up
the normative assumptions and visions that drive the process of decision making.
Special attention was paid to culturally shaped expectations, the cultural
appropriation of nano-technology and the need to take into account different
normative systems across EU member states. The expert discussion modelled
communication priorities, combining both citizen-driven and problem-driven
approaches. Participants were divided into three groups:
(1) Youngsters (Outreach, Dialogue, Education)
In order to tailor the communication to young people’s interests, knowledge,
attitudes, opinions, specific values, concerns and expectations, curiosity on
nanotechnology, youngsters were sub-divided into the youngest segment
(children aged between 5 and 13) to stimulate their curiosity about science and
nanotechnology; the middle segment (teenagers aged between 14 and 18)
requiring information about nanotechnology’s possibilities in the academic and
professional world and a critical attitude allowing them to become responsible
7 Sutcliffe, H.(2011): A report on Responsible Research & Innovation, MATTER Report, http://ec.europa.eu/research/science-society/document_library/pdf_06/rri-report-hilary-sutcliffe_en.pdf
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citizens; and the upper segment, aged between 19 and 22, consisting of
individuals who are gearing towards defining their career path.
(2) CSOs and Industry (Outreach, Dialogue, Education)
CSOs (Civil Society Organisations) are perceived to be the camp of opponents
against specific nano innovations, while the industry is usually perceived as being
pro-nano advancements because of a business rationale, at the possible expense
of safety and responsibility. However, the panel discussion proved to be an
opportunity to question and re-evaluate these polarised positions.
Both CSOs and industry are vital stakeholders in the policy debate on
nanotechnologies. Since multi-stakeholder debates are often characterized by
entrenched and divided normative views of the roles and aspirations of CSOs and
industry (for instance, that CSOs resist innovation and that industry favours
profits over responsibility), the panel discussions focused on more constructive
ways to engage these stakeholders.
In communication activities aimed at CSOs, the main objective is to involve them
directly in building links and information. CSOs can help build a mechanism to
share information constantly, rather than just for crisis management, in the
aftermath of events. They can include big CSOs already engaged in both
communication and debate on nanotechnology, small CSOs whose action and
sensitivity is focused on the local scale, and consumer associations. SMEs and
start-up companies in nano-related industries and corporations are motivated by
the search for a market in nano – they have strong motivation to seek out
information on opportunities and risks associated with the nano-business. SMEs
and start-ups are more likely to require support in communication activities, as
well as dealing with safety and security issues and regulation – this should not be
left to their own resources and initiative.
(3) Media and Lay Public (Outreach, Dialogue, Education)
In their position as very important multipliers, journalists are interested in reliable
information on nanotechnology. The media they work with, ranging from
newspapers to television to the Internet, have their own specific requirements.
Providing credible information and building relationships based on trust are vital
for effectively reaching the media. When addressing journalists, it should be
emphasized that people need to be more critically informed about nanotechnology
in order to increase their awareness of both potential opportunities and risks.
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2.2. "OLYMPICS" AND "TRAFFIC LIGHT" RATINGS FOR COMMUNICATION VEHICLES AND MESSAGES
For each audience and communication objective across OUTREACH, DIALOGUE
and EDUCATION, specific actions were identified for each vehicle ("Olympic
medals method") and ranked in terms of priority.
Similarly, specific messages for each action were ranked according to their
positive (desirable) or negative value ("Traffic light approach").
2.2.1. COMMUNICATION VEHICLES: "OLYMPIC" RATINGS
A shortlist of well-defined communication recommendations were classed as:
1) Gold: What the stakeholders' community must do right now. Proposals
which are regarded as "urgent, well-defined and necessary" belong to this class.
2) Silver: what the stakeholders' community should do in the near or medium
term future. Ideas belonging to this middle field are regarded as "useful rather
than necessary, important but not crucial".
3) Bronze: what the stakeholders' community could do later. Suggestions in
this field were deemed important by some, but not all the group members.
2.2.2. COMMUNICATION MESSAGES: "TRAFFIC LIGHT" RATINGS:
Specific messages (“What should we communicate about nanotechnology?") for
each vehicle were identified and labelled as:
GREEN: Say it! These messages are highly recommended, and can be
considered practically compulsory (such as the intensive collaborative effort for
open and transparent research).
YELLOW: Say it with caution! A cautious approach needs to be taken for
tackling controversial and uncertain aspects of nanotechnology (such as ELSA).
RED: Avoid saying it! These messages can harm the credibility of investment in
nanotechnology, either by over-selling science or presenting dystopian scenarios.
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The contributions of facilitators and rapporteurs of this workshop are gratefully
acknowledged here above.
Jennifer Millar (AUS) University of Sydney (AUS) and Zeppelin University, (DE) Lay Public and Media group
Dr. Daan Schuurbiers (NL) The Pilot Plant (De Proeffabriek) CSOs and Industry group
Maria Neicu (RO) University of Amsterdam (NL) and Warwick University (UK) Youngsters group
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3. DISCUSSION: WHAT TO DO?
This section addresses the different works carried out by the discussion panels.
3.1 PANEL 1: YOUNGSTERS
Communication projects focusing on youngsters should give substance to the
broader objective of activating citizens’ role in shaping technological
developments, guiding nano-based innovation towards socially robust outcomes.
Experts agreed that lack of social clarity can be addressed by raising knowledge,
help forming attitudes and encourage young people’s engagement. The debate
should take into account EU identified grand challenges (i.e. ageing society,
climate change, energy security and so on), exploring the potential of
nanotechnology and nanoscience to solve these multifaceted problems. The
common ground of discussion unfolded a multiplicity of choices around
nanotechnology from the perspectives of (1) scientific innovation, (2) market
uptake of nano-based products and (3) regulation of Nano as an emergent
technology.
Most importantly, experts outlined that all the products generated by the
communication projects (i.e. a map of the European opinion or an educational
programme on nanotechnology) should have their conclusions translatable into
policy relevancy. In terms of educated the youngsters and the message multipliers
that influence them (i.e. teachers), it was also found essential to diversify
communication channels, combining offline events with digital-based
communication.
3.1.1 USING NEW MEDIA VEHICLES
When addressing young people, one must understand their lifestyle and adjust to
their communication patterns and habits of consuming, processing, generating
and sharing information. Using creatively social media platforms, networking,
augmented reality or apps has become a must for reaching this audience. Playing
with a Nano-identification application for consumables, developing augmented
reality games, or practicing virtual graffiti for nano-structures are just some of the
activities considered to efficiently trigger enthusiasm.
A viral awareness campaign should address young people from three
perspectives: as responsible citizens, as responsible consumers and as students
considering multiple career options. The key strategy is to involve youngster by:
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(1) offering them a stake in the issue under discussion, transmitting a feeling of
ownership for developing original ideas on the potential of nanoscience and
nanotechnologies; (2) creating real communities of thought that can actively
shape real changes. With their architectures of participation8 online
communication tools such as interactive games or building apps can enhance the
feeling of ownership, transforming communities of participants into nomadic
collectors and creators of knowledge. Thus, besides formal educational activities,
communication actions must take into account the “non-elite social contexts and
communicative conventions” (Flew, 2003) which are actively shaping the cultural
appropriation of nanotechnologies through active participation.
However, experts also pointed out three challenges for outreach. Firstly, online
platforms are organically evolving, so the projects must constantly keep up with
the most innovative media tools in use. Secondly, oversaturation of information
on multiple communication channels should be avoided. Lastly, we must
acknowledge the digital divides between youngsters that have access to and can
afford these technologies and those who do not have access or/and cannot afford
them. “Knowledge apartheids” must be identified, in order not to exclude certain
groups of young people.
In what concerns the latter, strategic offline activities (such as a travelling science
lab, street events and science festivals) must be given importance as well, by
generating a critical mass of projects with a hands-on, minds-on, hearts-on9
approach. Offline projects should take into consideration hype venues (i.e.
skateboard parks), interesting themes (i.e. sports and fashion, health, green
lifestyles), and combine both professional time and leisure time.
3.1.2 A PLACE FOR CRITIQUE: THE “LIVE ARENA” OF DEBATE
Establishing dialogue is not only about communicating nanotechnology advances,
but is also about producing spaces of reflection and debate (such as science
festivals, scientific cafes, science theatre, performance and curatorial projects
etc.). These spaces would benefit from an effervescent collision of opinions,
attitudes and behaviours, combining cautious objectivity with less neutral stances,
in a challenging attempt to push the boundaries of thought.
8 Van Kerckhove, D. (2010): The augmented Mind, Kindle edition, e-book edition (English and Italian).
9 Bonazzi, M., (2010): Communicating nanotechnology: Why, to whom, saying what and how? – An action- packed roadmap towards a brand new dialogue, EC, Brussels, p.56. http://cordis.europa.eu/nanotechnology/src/publication_events.htm
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The first identified issue was the need to equip students with critical thinking
skills, for an informed judgement. Science and technology should not be
presented as a linear development; instead, youngsters must understand the co-
evolution of Nano innovation, economy and society, in order to responsibly
acknowledge their own roles in shaping the course of Nano development in
socially desirable directions.
One of the proposed options was the “Live Arena” of debate, such as a series of
Science Café events. Conceived as a live broadcasting dialogue event, its aim
would be to build-up critical skills in youngsters, having as subject of discussion
nanotechnology. Such an open approach calls for a deeply critical attitude about
what is considered to be valuable knowledge, and how citizens can actively shape
the socio-scientific evolution. In an ever more complex environment, this implies
that a new approach in teaching science is needed as well. The focus should be
less on offering an avalanche of information which is not critically processed and
understood. Instead, students need to be equipped with critical skills to select
from all the (often contradictory) information around them, filter the sources and
constantly question assumptions.
On the same idea of a culture of inquiry, a second priority proposal was a Science
Festival entitled “Nano: Breaking the Myths”. Experts from key communities of
practice (science, ethics, industry, arts) can join forces for developing workshops,
interactive exhibitions, performances and debates. In this way, nano innovation
impacts would be assessed from different (and sometimes unexpected) angles:
firstly by exposing social assumptions (“myths”, and secondly by de-constructing
pre-conceived ideas about Nano.
3.1.3 COACHING SCIENCE TEACHERS
A knowledge-based society is one of Europe’s major competitive advantages.
Undoubtedly, there is a growing need for building capacity for the technological
assessment of Nano. Therefore, experts strongly affirmed that selected
education actions should receive wide support from the EC, as pan-European
coordinated initiatives are of stringent need for enhancing mutual-learning and
strategic intelligence in the EU.
A systematic communication approach requires an integrated, coherent
perspective on how to open up the Nano debate towards the public, while
synchronising it with the EU innovation agenda. However, terms such as
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“curricula”, “standardisation” or “pan-European” should be avoided – as national
educational ministries could reluctantly respond to them.
To tackle this issue, workshop participants proposed a bottom-up initiative,
with an incremental approach, aiming to train teachers in developing critical
discussions in class: “Teaching Nano: a dedicated coaching programme for
teachers”. Identified by the experts as key multipliers in communicating
nanotechnology for youngsters, teachers will greatly benefit from the coaching
program, firstly in terms of career alternatives and specialization opportunities
(for instance, as part of a Long Life Learning Program and professional
reorientation programs). Thus, the coaching program would enhance their
expertise and add a new dimension to their professional development. Once
having trained teachers through peer coaching and expert coaching, elective
science classes on nanotechnology will diversify the educational offer for students,
improving the classroom practice. Such a program would actively support the
knowledge and skills development of science teachers, helping them reflect upon
their own practice and the social impacts of science and technology.
The panellists highly recommended the inclusion of industrial partners in the
coaching program. This will offer opportunities to reflect and engage in
professional discussions on: (1) what contributes to learn about nanotechnology in
a critical way, and (2) which are the best methods to map debates on nano as an
emergent technology, between high expectations and high concerns.
With an interdisciplinary approach, the program was thought to be modular,
flexible, configured on specific subjects such as physics, chemistry or biology.
Teachers could be coached to identify professional needs and thus adapt the
programme accordingly. This is expected to encourage teachers to expand their
expertise in a multitude of directions. As important supportive actions, the
program could include:
a. Virtual Learning Campus, for centralising online main learning and coaching
resources for teaching nanotechnology, including forums of discussion, as a
platform for harnessing new initiatives, at the local, national or European level.
b. Designed educational materials for students (i.e. classroom-based teaching,
game-based learning, thus using effective pedagogical approaches including
cooperative learning, like Play-Decide games).
c. European training Centres for teaching nanotechnology (i.e. featuring
stalwart institutions such as the Deutsches Museum and the Minateque
Grenoble).
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3.2 PANEL 2: CIVIL SOCIETY ORGANISATIONS (CSOS) AND INDUSTRY
Participation and engagement of civil society organizations (CSOs) and industry
are indispensable elements of a responsive policy strategy for nanotechnology.
The workshop participants agreed that broad stakeholder involvement enables
robust policies and improves innovation efficiency. Participants therefore proposed
the establishment of a multi-stakeholder platform involving CSOs, industry and
policy makers to advance responsible European policies for nanotechnology. The
two main activities to be undertaken within this platform are a series of
stakeholder dialogues and training activities.10
3.2.1 STAKEHOLDER DIALOGUES
A series of stakeholder dialogues would form the core of this initiative, discussing
foreseen advances in nanotechnology with the aim to establish an agreed
European policy agenda. Starting from new technological developments (and
focusing on concrete individual applications like a new type of coating or a filter
for water purification), these meetings would consider the various questions of
interest that emerge across the entire value chain (from research and
development all the way through production and distribution to use and waste
processing or recycling).11 Importantly, the stakeholders are to collectively
determine the types of questions deemed relevant for the policy making process:
what are the determinants of a responsible innovation strategy for
nanotechnology? The discussion cannot be limited to safety concerns or risks-
benefit analysis only, since this limits the range of potential concerns that
stakeholders can bring to the table. Rather, the dialogue should provide an
opportunity for stakeholders to discuss the relevant interests and concerns from
their own point of view. The key question involved in policy making for
nanotechnologies is beyond the question of risk: it is about the roles that
nanotechnologies are to play in our society. In other words, the dialogue engages
participants beyond questions of acceptance, and discusses the key messages
associated with nanotechnology as a socio-techno-economic project.
10 The design of this platform and its activities should build on the findings from previous EU projects such as NANOPLAT, NANOCAP, NANOCODE, DEEPEN and Nanobio-RAISE.
11 While noting that the question of labeling is a generic issue pertaining to the law and its doctrine, values, and perceptions, this could be an interesting topic for discussion: further research should be focusing on the most sensible and feasible ways of disseminating information on the use of nanotechnology. In fact, this is a complex and delicate issue, not only because it is difficult to identify the role of ‘nanotechnology’ in products. Another topic to be further explored is how to devise follow-up measures to implement the European Code of Conduct for Nanotechnologies. Effective stakeholder dialogue may solve some of these questions (Note of the Editor).
21
When agreement is reached on the relevant questions, the stakeholder platform
can define a policy agenda for addressing them. This will entail various kinds of
impact assessments, including (but not limited to) risk assessment and
management. Assessments of how foreseen developments may affect values in
different segments of the European population are equally relevant.
These assessments can then be used to define a shared vision on the ways in
which European policies should seek to shape the effect of nanoscience and
technologies on society. Crucially, measures should be put in place to ensure that
the outcomes of the deliberation process are fed back into actual decision making.
The notion of Responsible Research and Innovation implies that outcomes of the
dialogue are fed back into the institutional policy making and research processes.
In other words, the dialogue agenda needs to be connected with the research
agenda. Effective dialogue thus enables a sense of ownership: the realization
among stakeholders that the policies address their views and concerns.
In enabling wider participation to policy making, this initiative addresses the
European Commission’s commitments to an inclusive European society, identified
by President José Manuel Barroso as an essential element of Horizon 2020, the
new Framework Programme for Research and Innovation. In addition to providing
robust input to responsible policy making for nanotechnologies, this multi-
stakeholder platform is also a form of social innovation, functioning as a tester for
new forms of governance.12 Next-generation deliberative processes are built on
the acknowledgement that policy debates are never interest-free. Yet by engaging
in a dialogue about the various interests, it becomes possible to identify common
interests as elements for a coherent European policy agenda. The key is to
maximize synergies and minimize possible sources of conflict.
To establish this multi-stakeholder platform as a credible initiative however, a
number of important methodological conditions need to be met. First, there is the
question of motivation: there has to be a reason for stakeholders to join.
Motivations may vary among stakeholders: the platform could serve as a “forum”
for expressing one’s interests and this is the reason why the questions cannot be
limited to risks and benefits. This however invites the question of representation:
who is invited to join in the dialogue, and on what terms? And importantly, what
will happen to the outcomes of the dialogue? To be credible, the constituents of
the stakeholder platform need to be seen as fairly representing the values and
12 Notably the development of “third-generation deliberative processes”, as suggested by the European project Nanoplat.
22
concerns from different segments of society.13 This also implies that the members
of the platform should be treated as equals. This may be difficult to implement
given the differences in policy making and levels of funding, but is absolutely vital
for success. Continuity is a final condition: a platform with a longer time-span can
integrate and facilitate discussions over longer periods of time and allows for a
proactive and adaptive approach that can cope with the dynamics of the research
and innovation processes, changes of attitudes and needs. Dialogue processes
cannot be rushed. These conditions (motivation, representation, equality and
continuity) demand careful design of the platform and of the way the outcomes of
the dialogue will be taken up.
Another important benchmark of success would be for the initiative to tie in with
on-going European efforts, as for example the risk assessment and management
initiative for nanomaterials as initiated by DG SANCO (Directorate General for
Health and Consumers) and DG RTD (Directorate General for Research and
Innovation) on differentiation, detection and interaction with living organisms.14 In
the panellists’ view, these efforts towards building a regulatory framework point to
another condition: they demonstrate that the regulation of nanotechnologies
demands a global strategy. Questions concerning nanotechnology do not respect
borders, particularly because some components for nano-based products may be
produced and imported from countries where other types of legislation apply
(indeed, with different value systems and priorities).
3.2.2 TRAINING SESSION TO ADDRESS KNOWLEDGE GAPS
While the dialogue process is intended to exchange views and concerns among
stakeholders (in the sense of two-way communication), the exchange is expected
to be more effective if participants are to an extent ‘on the same wavelength’ with
respect to the available information. In other words, there will at times also be a
need for the provision of information (in the shape of ‘unidirectional’ training or
education). So in addition to the dialogue meetings themselves, the platform
envisages a number of training events in which each of the stakeholders in turn
“educates” the others, by addressing knowledge gaps. The figure below indicates
the multilateral process thanks to which stakeholders may learn from each other.
13 During the meeting, several CSOs were identified such as the BEUC, EEB, ETUI, EPHA, WECF and ECAS. One relevant question to be addressed in this respect is how to address possible needs of developing countries (Note from the panelists).
14 A common approach from DG SANCO, DG RTD, DG JRC (Joint Research Centre) should be encouraged for this purpose.
23
Multilateral learning process for stakeholders
Regulators and policy makers can inform the industry about the state of the
regulatory processes and provide a picture of the underlying issues at stake (such
as safety concerns). Conversely, regulators can benefit from information sharing
with the industry to assess the levels of knowledge already available within the
industry and to align regulations to production practices.15
CSOs can in turn offer insights in the kinds of values and concerns within different
segments of the population, and the way they are prioritized. In doing so, they
may broaden the scope of the questions to be addressed during the dialogue
meetings. Conversely, regulators and policy makers can assist by promptly
providing information on the most updated regulatory and policy processes to
date and “open up” the policy making process.
The success of these training initiatives is also dependent on methodological
criteria. First, trust is crucial: who accredits the trainers? If the trainers aren’t
seen to be impartial and objective, opportunities for learning may evaporate. Also,
the question of representation reappears.
To conclude, dialogue meetings and training sessions organized by a multi-
stakeholder platform could facilitate the development of a shared vision on the
ways in which nanotechnologies may affect Europe and the questions this raises
for policy making. In doing so, robust European policies for nanotechnology might
or could be enabled, also contributing the Commission’s communication strategy
15 Particularly here, the issue of equality needs to be kept to the fore. CSOs may be concerned about becoming unwillingly involved in an industrial lobby directed at policy makers. Information exchange needs to remain objective and impartial.
24
for nanotechnology. The continuity of the multi-stakeholder platform would also
establish cross-links between the various partners and projects involved in
outreach, dialogue and education.
3.3 PANEL 3: MEDIA AND LAY PUBLIC
3.3.1 MEDIA AND LAY PUBLIC AS TARGETS
The media, in their position as very important multipliers, should be among the
primary audiences to be reached. However, this does not rule out the need to
address the broad public directly with appropriate actions16. Journalists are
interested in reliable information on nanotechnology, in an appropriate format.
The media they work with have their own requirements, ranging from newspapers
to television to the Internet. Credibility of the information provided and building
relationships based on trust are key values concerning communication to the
media, which are keen to inform the public about nanotechnology in order to
increase awareness of both potential opportunities and risks. Similarly, building
relationships based on trust is important when considering nanotechnology
communication directed at the lay public: “The public trust and dialogue on
nanotechnology will be crucial for its long-term development and allow us to profit
from its potential benefits”17. Open and transparent communication is an integral
part of the general culture of responsibility towards nanoscience and
nanotechnologies, which the EC is trying to create.
The working group session began with a discussion of the definition of “lay public”.
It was clear that the term should not refer to an all-encompassing group of
individuals - indeed, there exist many publics with a variety of needs and
expectations; this is precisely what renders communication of nanotechnology to
“The public” (understood as a homogenous entity) a real challenge. The ensuing
discussion broached a range of outreach, education and dialogue activities in the
hope of catering to a wide range of people in the public arena.
16 Bonazzi, M., (2010): Communicating nanotechnology: Why, to whom, saying what and how? – An action-packed roadmap to a brand new dialogue, EC, Brussels. http://cordis.europa.eu/nanotechnology/src/publication_events.htm
17 Bonazzi, M., (2009): Knowledge, Attitudes and Opinions on Nanotech across European Youth, EC, Brussels.
25
3.3.2 OUTREACH
Outreach actions should frame nanotechnology in culturally significant ways18. For
example, the Observatory Nano project revealed that “nanotechnology” as a topic
of communication may be too abstract for large-scale public engagement. There is
a feeling that the “technology” aspect may have been pushed too far by
communicative actions: as a result, nanotechnology may have become difficult for
many audiences to comprehend and assess.
It may well be more fruitful to focus on specific issues and sensitive applications,
such as “nano in food”, “environment and sustainability” or “nanomedicine”. The
necessity of doing this is also indicated by the findings of TimeForNano19. The
scenarios which were presented in this project should have been related to local
concerns. For example in Germany, the topic of “Security”, may be less of a public
concern than in France20.
A possible outreach action would be to hold a festival bringing together key
actors from the media, scientific and artistic circles, as well as members
of the lay public. The festival should facilitate collaboration between scientists,
artists and journalists, as communities of practice which are strongly connected.
As stated previously, a wide range of nano communication at this event should be
framed according to the themes and the corresponding publics. The festival could
include a round table moderated by journalists, involving scientists and
representatives from CSOs. It is expected that the round table would encourage
research scientists to consider the significance of nano communication not only to
or with the public, but also within the scientific community. Such reflexivity would
prompt scientists to consider the perceived “sci-fi” aspects of their work, which
the public may find concerning.
The discussion on these dilemmas could then contribute to enrich a possible
European strategy for responsible innovation governance. In fact, it seems
important to move beyond the risks of nano and also envisage the kind of future
we desire. Some participants felt that focusing on the risk-benefit framework only
18 Reworked from publishable reports of project "Observatory Nano", at http://www.observatorynano.eu/project/catalogue/4/
19 Publishable reports from project "TimeforNano"; more details at http://www.timefornano.eu/about-nanotechnology
20 Results reworked from the exhibition "All connected" displayed at Cité des sciences CCSTI of Grenoble, October 2010-March 2011, developed also in the framework of project NANOYOU. More details at http://nanoyou.eu/lv/component/content/article/27-news/724-qall-connectedq-at-the-cite-des-sciences.html?directory=62&Itemid=62 and http://nanoyou.eu/lv/nanoyou-project/news/7-nanoyou-project.html
26
might be limited and inappropriate, as the notion itself of some benefits may be
radically disputed. Rather, responsible innovation governance should become the
focus of outreach, dialogue and education activities.
The festival event could also include sessions for simultaneous training of
journalists and scientists in science communication. As a template design for
these sessions, future projects could benefit from the experience of “Advanced
Courses on Public Communication and Applied Ethics of Nanotechnology” at
Oxford, part of the NanoBioRaise project21.
The festival could also feature an art-science exhibition put together by an
interdisciplinary team of scientists, curators, exhibition organisers and script
writers. The festival event could draw on the idea of BIOPOP22, whereby tents
were set up for 2 days in the main squares of Bologna in Italy and Delft in the
Netherlands. Within the newly created de-centralised space for debate, young
scientists fielded questions and comments from members of the public.
In this light, the collaboration between Art and Science is an opportunity to
boost outreach: "We especially need imagination in science. It is not all
mathematics, nor all logic, but is somewhat beauty and poetry”, said Maria
Mitchell, an American astronomer from the late 19th century. Art-science
collaboration encourages artists to explore the possibilities of the technologies of
science and encourages scientists to fulfil their curiosities despite the constraints
associated with scientific research23. This collaboration is a medium which holds
enormous potential for the communication of nanotechnology. Displaying scientific
data artistically is a way of making scientific concepts accessible and questionable
to society at large, including people of non-scientific backgrounds who might
otherwise be excluded from the process of decision making.
There is often an uncanny likeness between nano structures and structures in the
macroworld which allows the viewer to identify with the artwork and gain an
appreciation for the nanostructure: “The examination of nanostructures reveals
fantastic images that transport us into fascinating worlds that are full of secrets.
21 Reworked from publishable materials developed within "NanoBioRaise" project, more details at: http://www.ncbi.nlm.nih.gov/pmc/articles/PMC2837214/
22 More details at: http://biopop.pophealth.wisc.edu/wp/
23 Bonazzi, M. (2008): "Communicating nanotechnology through art", in Art and Science - creative fusion, EC, Brussels, December 2008, ISBN 978-92-79-10879-2, pages 13-14, EC, DG RTD, re-printed in 2009.
27
In a mysterious way, the motifs are similar to macroworld objects”24.
Another main discussion point was that a key objective of further funding should
be to make reliable scientific information available to journalists at short notice. A
proposed outreach action for doing so is to create an online database of scientific
publications. These publications should be written in such a way as to be
understood by journalists of non-scientific backgrounds- technological and field-
specific references would be explained in lay terms.
3.3.3 DIALOGUE
The EC has moved from a top-down to a bottom-up communication approach to
nanotechnology, promoting a “dialogue” model: that is, science communication is
a multi-way exchange of information between specialists and non-specialists,
rather than a one-way communication25. The “dialogue” vehicles should therefore
enable each party to share, listen and be listened to while respecting the other
party’s point of view.
Another possible suggested dialogue action might be to podcast all
nanotechnology presentations aired on the radio. The aim of podcasting would be
to give members of the lay public the opportunity for increased reflection,
thereby empowering them to engage in dialogue.
Dialogue actions should also function to increase communication between EC-
funded projects in the future. The projects should not be separate entities as they
have been. Similarly, scientists working in the Open Laboratories, such as those
featured in the TimeForNano project26, should have the opportunity to travel to
other sister locations. This would facilitate the communication of best practices in
the Open Laboratories and further increase the synergies between projects.
Another participant pointed out that projects involving media partners require
increased communication between journalists.
24 November 2009. Expedition Zukunft. ArchiMeDes, Berlin.
25 Bonazzi, M., (2010): Communicating nanotechnology: Why, to whom, saying what and how? – An action-packed roadmap to a brand new dialogue, EC, Brussels, pages 7, 9, 72-78. http://cordis.europa.eu/nanotechnology/src/publication_events.htm 26 More details of project "TimeforNano" can be found at http://www.timefornano.eu/about-nanotechnology
28
3.3.4 EDUCATION
Setting up cross-training media centres for scientists and journalists would aim
to ensure that scientific publications on nanotechnology can be easily and quickly
accessed by journalists. It would include a session for scientists and journalists
addressing referencing, teaching scientists to use key words in referencing their
publications often used in searches by journalists. Also, cross-training media
centres should be set up to include establishing a dedicated reference database
resource. New reference systems may be needed for research on uncertain topics
such as nanotechnology: it may be necessary to integrate them into an initiative
for emerging technologies which includes biotechnology.
A further education action would aim to provide journalists with first-hand
knowledge of scientific lab research, thereby facilitating communication between
two communities of practice: scientists and journalists. One suggestion focused on
a “Journalists in the Lab” Workshop, which could be based on the concept of the
SciArt10 programme27 from the Wellcome Trust Foundation, supporting
imaginative and experimental arts projects that investigate biomedical science.
4. CONCLUSIONS: SO WHAT?
4.1 THE EC VIEW
Communication activities should not associate “hype” with nanotechnology, over-
selling promises. Indeed, panellists agreed that the hype has passed and we are
now faced with the reality of the technology. The industrial reality is that
European countries cannot be regarded as featuring among the big players in
nanotechnology yet. Meanwhile, the Code of Conduct has been playing a pivotal
role in kick-starting the debate between Member States. Current policy is driven
by technology and innovation; however, a consensus within the industry regarding
safety is now paramount.
Mr. Christos Tokamanis, Head of Unit for Nano Sciences and Nano Technologies,
Directorate G, DG Research and Innovation (RDT) of the EC, defines
nanotechnology as a political project based on social relations, the nature of which
27 For more details on Sciart and Wellcome Trust, see http://www.wellcome.ac.uk/Funding/Public-engagement/Funded-projects/Awards-made/All-awards-made/WTX035067.htm. A summary of the Sciart evaluation report can be accessed on http://www.wellcome.ac.uk/stellent/groups/corporatesite/@msh_grants/documents/web_document/wtx057229.pdf
29
is now necessary to determine in order to establish a dialogue with various
audiences, including youngsters, CSOs and Industry, media and the lay public,
and act on their feedback. A participant expert advocated engaging the European
public directly via dialogue actions, rather than focusing on building trust; this
would ensure that the politics of nanotechnology better reflect European values.
Advanced nanotechnology requires enhanced solidarity and common purpose
based on these shared values but currently the European public does not consider
itself as a part of discussions on nanoscience and nanotechnologies yet. This will
require models to enable inclusive participation in political deliberation.
Member states and research scientists need to be offered an incentive to
implement and abide by a new Code of Conduct. Instead of being perceived as yet
another level of bureaucracy, the Code of Conduct must be appropriately
translated into the various languages and should be extended outside of Europe to
ensure fairness, as determined by the project NANOCODE28.
The participants felt that the budget of about 10 million euros that has been spent
on nanotechnology communication by the European Commission over the past 7
years is insufficient. They consider as necessary the development of a
nanotechnology communication strategy with milestones up to 2020, as well as a
clear implementation process. Concrete actions are needed in order to secure
further funding.
4.2 ASSESSMENT OF PREVIOUS ACTIONS ON COMMUNICATING NANOTECHNOLOGY
Asked as to the ways in which the process of communicating nanotechnology
could be improved, participants agreed that (1) nanotechnology has been
subjected to vicious hype-disillusionment cycles (due to overpromising by some
researchers in order to obtain funding); (2) communication occurred largely
“downstream”, with the purpose of enhancing acceptance: this leaves little room
for feedback mechanisms into the actual innovation processes; and (3) a lack of
acceptance was assumed to be the result of insufficient information (the deficit
model of communication). This led to a strategy of (4) communication focused on
risks and benefits of the technology, rather than addressing the broader question
of how we want nanotechnologies to shape our societies. Finally, (5) the EC
communication strategy tended to focus more on communication vehicles and
messages than the underlying communication goals.
28 More details at http://www.nanocode.eu/
30
The critical question therefore is how to enable a sensible debate in the absence of
certainties regarding risks and future directions and also, at what stage of
technological development we want to engage. It should be recalled that:
“Rather than blindly developing the technology and simply waiting for the magical
appearance of benefits to society, we should define social goals and determine
how science and technology may help to reach them. Social and natural scientists
should start working together to ensure that science is in the service of society.”29
4.3 OBJECTIVES FOR A NEW COMMUNICATION FRAMEWORK ALONG THREE PRIORITY LINES
Three priority lines were identified for future stakeholders' communication actions
on nanotechnology, each characterised by a set of key objectives.
Education:
o General levels of knowledge to prepare young citizens to make
informed choices in tomorrow’s complex societies;
o Training new cadres of engineers / vocational training.
Competitiveness of the EU:
o Create a global playing field;
o Create opportunities for industry within the EU.
An inclusive European society:
o Responsiveness of policy making;
o Responsiveness of the research and innovation system.
4.4 STRATEGIC RECOMMENDATIONS
The focus should be on identifying what the likely public interests and concerns
are and ensure that the research and innovation system takes these concerns into
account.
29 From the essay Ethics in Action, by Daan Schurbiers, which won the Mekelprize of TU Delft’s Platform on Ethics and Technology in 2008. Available at http://www.tnw.tudelft.nl/fileadmin/Faculteit/TNW/Over_de_faculteit/Afdelingen/Biotechnology/Research/Awards___Milestones/doc/Mekelprijs2008_Ethics-in-Action_Schuurbiers.pdf.
31
Better policies for nanotechnology also depend on the collaboration between
Science in Society and the Unit Nano Sciences and Nano Technologies of the
Directorate Industrial Technologies within the new Horizon 2020 framework. This
collaboration lies in a renewed focus on the reasons of why we communicate and
how common efforts could be established. Communication and dialogue are
intimately linked. Strengthening the consistency between going out to the public
(through education and communication in different media) and ensuring that
public views feed back into the policy process (through upstream involvement and
scientist engagement) would both enable Unit of Nano Sciences and Nano
Technologies and the Unit Science in Society to support each other and strengthen
the communication effort by the EC itself. Admittedly, this will require some
discussion between the representatives from both services, but it may be the key
to reach an agreed view on the purpose of communication and dialogue.
By outlining a credible strategy that synergistically combines the communications
of the Unit Nano Sciences and Nano Technologies with the overall vision of
Responsible Research and Innovation from Science and Society (bridging
communication and dialogue), this could presumably serve as a model for other
programmes. The multi-stakeholder platform may well have a role to play in this
endeavour.
4.5 AT A GLANCE: OUTLINE OF PROPOSALS FOR COMMUNICATION OUTREACH, DIALOGUE AND EDUCATION ON NANOTECHNOLOGY
Overall, the following recommendations stem as the main outcome from the
workshop effort. Altogether, they frame a structured set of actions shaping the
"Outline of Proposals for Communication, Dialogue and Education on
Nanotechnology". Full details expanding each different action are provided
accordingly in the tables of Chapter 6: which illustrate which ideas, proposals
and actions the stakeholders' community on communicating nanotechnology
must, should or could develop to promote responsible communication in this
field.
32
5. OUTLINE OF PROPOSALS FOR COMMUNICATION OUTREACH, DIALOGUE AND EDUCATION ON NANOTECHNOLOGY: KEY ACTIONS IN A NUTSHELL
YOUNGSTERS
Action 1. Outreach
Gold: Kick-start a viral campaign of nano-awareness, addressing young people as responsible citizens and consumers on three main topics: Sports and Fashion, Food and Health, Environment and Sustainability. Young people can be challenged to create open-sourced ICT applications such as: nano-identification app for consumables, augmented reality app for nano-based materials, virtual graffiti.
Silver: Set up an “Edu-Nano Forum” for creating awareness for the key multipliers and their contribution to building critical skills in assessing nano-technology. “Edu-Nano Forum” will include: online learning resources, teachers and students forum for collaborative learning.
Bronze: Organize contests as part of the viral online campaign.
Action 2. Dialogue
Gold: Set-up “Live Arena” events as a space for critical debate (i.e. Science Café);
Silver: Organize a festival/exhibit on called “Nano – Breaking the Myths”, de-constructing social assumptions on nanotechnology development.
Bronze: Organize three cycles of Live Arena debates and “Breaking the Myths” festivals/exhibitions, for a consistent change in young public’s perception.
Action 3. Education
Gold: Devise a “Teaching Nano” coaching program dedicated to teachers;
Silver: Organize a program for vocational skills, improving employability and connecting youth talent with industrial stakeholders;
Bronze: Set up a “Nano Parliament” for technological assessment, as a simulation of the policy decision-making process. Representatives of the Nano Parliaments would be young people with an active involvement in civil society and young scientific researchers. Real stakeholders (such as industrial players or national institutes for technological assessment) should be included as well, to ground the debate.
33
CSOS AND INDUSTRY
Action 4. Outreach
Gold: Assess the interests and concerns of CSOs and industry to prepare for a responsible research and innovation strategy for Europe;
Silver: Ensure international cooperation on risk and value assessment;
Bronze: Identify and assess public interests and concerns about nanotechnologies.
Action 5. Dialogue
Gold: Establish a multi-stakeholder platform involving CSOs, industry and policymakers;
Silver: Define a common identity for stakeholders' policy initiatives on communication and dialogue in preparation for Horizon 2020;
Bronze: Enable third-generation deliberative processes.
Action 6. Education
Gold: Hold training sessions for stakeholders within the multi-stakeholder platform;
Silver: Organize CSO-industry exchanges;
Bronze: Arrange visits of industry researchers and representatives to developing countries, and vice-versa.
MEDIA AND LAY PUBLIC
Action 7. Outreach
Gold: Create an online database of scientific references, to ensure that expert scientific information is reliable and readily accessible for journalists. This dedicated online scientific database on nanotechnology should be quickly referenced in lay terms for mainstream media use.
Silver: Organize attractive “Nano-Festivals” involving interdisciplinary collaborations between science and art, round tables with journalists moderating scientists, CSOs and industry representatives; include curators, exhibition organizers, script writers and podcasts.
Bronze: Organize festival street labs.
Action 8. Dialogue
34
Gold: Set-up podcasts of radio segments on nanotechnology.
Silver: Create regular journalist teleconferences or webinars.
Bronze: Host open lab exchanges to increase synergies between communication projects.
Action 9. Education
Gold: Set up cross-training media centres with master classes for both scientists and journalists without a scientific background; train scientists about ways to provide references for media.
Silver: Open up research laboratories for journalists, to receive first-hand experience of how the scientific work is set-up and to thereby facilitate communication between scientists and journalists.
Bronze: Organise open lab exchange schemes, bringing together scientists, journalists and artists.
Action 10. Integrated Communication, Dialogue Education
Make use of innovation and creativity to communicate and foster inclusion of all stakeholders.
35
6. OUTLINE OF PROPOSALS FOR COMMUNICATION OUTREACH, DIALOGUE AND EDUCATION ON NANOTECHNOLOGY: DETAILED DESCRIPTION
Table 1 - Outreach-Dialogue-Education Actions for
Youngsters
Youngsters: Outreach actions
1. Awareness, Viral Campaign
Go
ld
(Sta
ke
ho
lde
rs'
com
mu
nit
y
mu
st d
o)
Aiming to address youngsters as: • Responsible citizens • Responsible consumers • Vocational- career
Challenge: Digital divides = Identify the tough-to-reach young audience, or young audiences without access to digital expensive devices and services. Prevent the digital divide to generate a Nano- divide (knowledge apartheids) and exclude certain groups of youngsters. Vehicles: • Invite youngsters’ creative input both online and offline • Combine professional time with leisure time
Offline activities: (1) Travelling event, (2) Street event/ skateboard parks or other hype venues for youngsters, (3) Train wagon/tube designed as an interactive, travelling science lab.
Online activities: • A continuous campaign technology-oriented based on the ever-
changing social platforms (rapidly changing) • Develop a Nano-identification application for consumables. • Develop applications for augmented reality devices. • Virtual graffiti for representing Nano.
Themes on Nano (simultaneous focus): I. Sports and fashion
II. Food and Health III. Environment and Sustainability
36
2. Euro Edu-Nano Forum
Silv
er
(Sta
ke
ho
lde
rs'
com
mu
nit
y
sh
ould
do)
Aiming to deliver innovative models including all relevant actors (ministries, vocational etc.), reaching key multipliers.
3. Contest
Bro
nze
(S
take
ho
lder
s'
com
mu
nit
y
cou
ld d
o)
It can be part of the awareness campaign.
Key Messages
Green: • Know more and better (message of critical empowerment); • Question constantly!
Yellow: • Beware of Nano!
Red: • Incite “Nano-hooligans”; • “Nano is the hype!”; • Avoid stereotypical messages; • Do not associate Nano with specific brands (product placement).
37
Youngsters: Dialogue actions
1. Live Arena of debate G
old
(S
tak
eh
old
ers
' co
mm
un
ity
mu
st d
o)
Live broadcasting dialogue & debate event
• Frame the “Live Arena” discussion as a locus of critical debate, building a critical apparatus. Nanotechnology is just the subject to be discussed. The aim is to build-up critical skills in youngsters.
• Choose vehicles wisely: Select the media without being too intrusive
• Discuss heritage versus open innovation • Example: Science Café
2. Dialogue Festival/Exhibition ‘Nano: Breaking the myths!
Silv
er
(Sta
keh
old
er
s' C
om
mu
nit
y sh
ould
do)
• Start from dogmatic claims, open them up. • Bring experts from science, ethics, industry • Allow the opposition to be represented, allow divergent views
to be discussed.
3. Three cycles of Live Arena and “Breaking the Myths” Festival
Bro
nze
(S
tak
eh
old
ers
' C
om
mu
nit
y
cou
ldd
o)
A spiral, bottom-up approach (building on layers of reflective debate) The Live Arena and the Festival could succeed each other 3 times, in order to build-up ideas, and assess an evolution of the debate Agenda.
Key Messages: Green:
• We are not intrusive! • Student-based activities on Nano are not just another “boring”. school
activity. Yellow:
• Nano kills/saves. • Avoid definitive claims, leave them open and encourage youngsters to
consider the grey zones.
Red: • Nano-preach: do not use young people as promoters of Nano • Association of nano research and communication with brands should be
avoided.
38
Youngsters: Education actions
1. Teaching Nano: a coaching programme dedicated for teachers
Go
ld
(Sta
ke
ho
lde
rs'
com
mu
nit
y
mu
st d
o)
Approach: First step for a possible future agreement on an EU curriculum for nanosciences and nanotechnologies is to train the teachers (key communication multipliers for youngsters). The coaching should to provide effective, on-going, classroom-based professional development for science teachers. The need: Form teachers as skilled reflective practitioners. Positioning: Have a bottom-up, incremental approach, thus avoid terms like “curricula”, “standardisation” or “pan-European” – as they can foster reluctance/resistance from MS Educational Ministries. For teachers:
o Offer career alternatives, specialisations for science teachers (part of a Long Life Learning Programme and professional reorientation programmes).
o The programme will support knowledge and skills development.
o Cooperative and reflective coaching (combine peer coaching with expert coaching)
For students: Optional science classes on Nano will diversify the educational offer. For policy makers: Partnerships with the industry are recommended, as active partners in education, offering opportunities to observe, practice, reflect and engage in professional discussions about what helps their students to critically learn about Nano as a complex socio-scientific emerging innovation. Content & Structure of Teaching Nano:
• Relevant for science teachers, adding a new dimension to their profile.
• Will improve the classroom practice • Thus, the programme should be modular, flexible,
configured on specific subjects (physics, chemistry, biology etc.), allowing the teacher being coached to self-identify professional needs while including an…
39
• … interdisciplinary approach, allowing teachers to expand their expertise in a multitude of directions => peer coaching
• Could include industry => expert coaching (i.e. teachers could include professionals in their classrooms).
Professional recognition (incentives): i. Nano-teaching Certification ii. Invitation to display the newly-acquired expertise and
exchange experience with the teachers’ community at the NanoEdu Forum.
Support actions: a. Virtual Learning Campus, for centralising online main
learning and coaching resources for teaching nanotechnology (including forums of discussion) as a platform for new initiatives.
b. Design educational materials for students (classroom-based teaching, game-based learning, thus using effective pedagogical approaches including cooperative learning) i.e. Play-Decide games.
c. European training Centres for teaching Nano. (Ex. Deutche Museum, Minateque Grenoble etc).
2. Programme for Vocational Skills
Go
ld
(Sta
ke
ho
lde
rs'
com
mu
nit
y
mu
st d
o)
• Include in the European NVQ – National/Nano Vocational
Qualification. • Form technicians (in collaboration with the industry).
3. Nano Parliament
Silv
er
(Sta
keh
old
ers
' co
mm
un
ity
sh
ould
do)
Argument: Exercises of foresight deliver narratives that can shape the policies aiming at improving “Europe’s competitive position in the knowledge-based economy and society of the future.” 30
• Involve youngsters from political organisations, NGOs for social change and decision-making (e.g. European Youth Parliament)
30 STOA, Science and Technology Options Assessment, European Parliament (2008). Technology across borders: Exploring perspectives for pan-European Parliamentary Technology Assessment, Study of Directorate General for Internal Policies, Directorate G: Impact Assessment, IP/A/STOA/FWC/2008-096/LOT8/C1, PE 482.684.
40
• Meetings and exercises for simulating processes of decision-making for assessing nanosciences and nanotechnologies (i.e. Meeting of Young minds31, organised by Rathenau Institute and iGem32)
• Grasping opportunities to connect with real regional, national and European parliaments.
Key Messages: Green:
• Train teachers and teach students in an interdisciplinary way. Yellow:
• Too much information can be counterproductive for students; focus on building critical skills instead.
Red: Avoid using the expression “nano-curriculum”.
31 More information on “Meeting of young minds” project”: http://www.rathenau.nl/en/themes/project/synthetic-biology/meeting-of-young-minds.html and http://2011.igem.org/Regions/Europe/Jamboree
41
Table 2 - Outreach-Dialogue-Education Actions for
CSOs and Industry
CSOs and Industry: Outreach actions
1. Assessing the interests and concerns of CSOs and Industry to prepare for a Responsible Research and Innovation strategy for NMP.
Go
ld
(Sta
ke
ho
lde
rs'
com
mu
nit
y m
ust
do)
Aim: To identify and integrate the various interests and concerns of stakeholders serving as input for a responsible research and innovation strategy for nanoscience and -technologies.
Vehicles:
• identifying interests and concerns through interviews, questionnaires and focus groups, building on knowledge gained in earlier EU projects
• feeding these findings back into the policy process (particularly Horizon 2020) through policy briefings and internal meetings
Outcomes:
• integration of a robust, shared vision on the future of nanoscience and nanotechnologies in European policies.
2. International cooperation on risk and value assessment
Sil
ver
(Sta
keh
old
ers'
co
mm
un
ity
sho
uld
do
)
Aim: To enable a coordinated, global strategy for risk assessment, building on current initiatives.
Vehicles:
International meetings between policy makers and regulators to identify and carry out an agenda for risk assessment (EU, US, Japan, China, South-Korea, Brasil, etc).
3. Identify and assess public interests and concerns about nanotechnologies
Bro
nze
(S
tak
eho
lder
s'
com
mu
nit
y co
uld
do
)
Aim: Broadening the “Gold” and “Silver” outreach-activities above by gathering knowledge of public interests and concerns about nanotechnologies (insofar as not yet covered by the Eurobarometer and other EU-initiatives).
42
Knowledge of public concerns and attitudes should feed back into the policy making process (listed under “Gold” and “Silver”) and provide input to future education and dialogue activities.
Vehicles:
• Review of previous EU projects (if possible also from other
fields of research, such as genetics or biotechnology) and
Eurobarometer studies;
• Questionnaires, interviews.
Key Messages Green:
• Stakeholder participation and engagement are indispensable elements of a responsible research and innovation strategy for nanosciences and -technologies.
Yellow:
• Using "nanotechnology" in the singular manner. Red:
• Resistance against nanotechnology stems from a lack of information - increasing levels of knowledge will lead to acceptance. (This view has become known as the "deficit model" of communication which is demonstrably incorrect).
• Consumer acceptance depends on their perception of the risks as against the benefits. (This reduces the question of acceptance to the juxtaposition of risks and benefits).
• Those who want to apply the precautionary principle are under the illusion that they can live in a risk-free society. (This denies the possibility that application of the precautionary principle may be rational under certain circumstances).
• Our bodies have learnt to live with nanoparticles for millions of years, so there is no reason to be concerned about the safety of nanoparticles.(This principle ignores the question of newly engineered nanoparticles and dodges the question of health risks).
43
CSOs and Industry: Dialogue actions
1. A multi-stakeholder platform involving CSOs, industry and policy makers
Go
ld
(Sta
ke
ho
lde
rs'
com
mu
nit
y
mu
st d
o)
Aim: Building a shared vision among stakeholders on the ways that nanotechnologies may affect European society, serving as input for socially robust European policies for nanotechnology.
Vehicles:
• Establishment of the platform; • A series of dialogue meetings; • Training sessions to address knowledge gaps among
stakeholders.
(see subgroup report)
2. Establishing a common identity for stakeholders' policy initiatives on communication and dialogue in preparation for Horizon 2020
Sil
ver
(Sta
keh
old
ers'
co
mm
un
ity
sh
ou
ld d
o)
Aim:
To formulate a coherent policy programme for communication and dialogue, integrating the views of Science in Society (notably on Responsible Research and Innovation) with a responsive communication strategy of NMP.
Vehicles:
• Meetings among policy makers of NMP and SiS (Science in Society);
• Vision document, defining a coherent strategy for Horizon 2020; • Synergistic process as a model for integration with other themes
in preparation for Horizon 2020.
(See subgroup report)
44
3. Defining third generation deliberative processes
Bro
nze
(S
tak
eh
old
ers
' co
mm
un
ity
co
uld
do
)
Aim:
To identify the characteristics of a new form of deliberative process, rendering cooperation and dialogue among stakeholders as a matter of enlightened self-interest.
Vehicles:
• Literature review and theoretical reflection: “Beyond Habermas”; • Expert meetings to prepare a methodology (building on Nanoplat
and Nanocap); • Followed by implementation:
o Using the multi-stakeholder platform under “Gold” as a case study
o Other case studies of good dialogue practice.
Key Messages: Green:
• The debate on nanotechnology is about acceptability, not acceptance. Yellow:
• It is about the range of acceptability. Red:
• The debate on nanotechnology is about risks and benefits. • "Responsible acceptance".
45
CSOs and Industry: Education actions
1. Training sessions to stakeholders in the multi-stakeholder platform
Go
ld
(Sta
ke
ho
lde
rs'
com
mu
nit
y m
ust
do
) Aim: To address knowledge gaps among stakeholders that may impede constructive dialogue.
Vehicles: Training sessions. (See subgroup report)
2. CSO-industry exchanges
Sil
ver
(Sta
keh
old
ers'
co
mm
un
ity
sh
ou
ld d
o)
Industry and CSOs have strong presuppositions about each other’s motivations. Bringing them together may evoke social learning - the idea should be to open up to each other’s visions (knowledge and resources).
46
3. Visits of industry researchers and representatives to developing countries, and vice versa.
Bro
nze
(S
tak
eh
old
ers
' co
mm
un
ity
co
uld
do
) Nanotechnology is often said to be effective in addressing challenges from Developing Countries (DCs). Current research endeavours are however far removed from the local exigencies. Site visits may help researchers to attune the functionality of nanotechnology-based innovations to local needs - conversely, representatives from DCs could be invited to Europe to facilitate uptake of nanotechnology-based innovations in DCs.
Key Messages: Green: • Dialogue is enhanced by well-informed participants.
Red: • Policy should be determined by scientific knowledge. (Instead, different
forms of knowledge, including lay expertise)33.
33 See Brian Wynne (1996), May the Sheep Safely Graze? A Reflexive View of the Expert-lay knowledge divide. Chapter in Bronislaw Szerszynski, Scott Lash and Brian Wynne (Eds.): Risk, Environment and Modernity: Towards a new Ecology. Sage Publications Ltd.
47
Table 3 - Outreach-Dialogue-Education Actions for
Media and Lay Public
Media and Lay Public: Outreach actions
1. Create a system for on-line Scientific References
Go
ld
(Sta
keh
old
ers'
co
mm
un
ity
m
ust
do
)
Aim:
Ensure that expert scientific information is not only reliable but also readily available for journalists. A data base for journalists should be very helpful, linked to the Online scientific references.
Challenge: To provide a bridge between the media’s rhythm of consuming information- quickly, and at the last minute- and the relatively long periods necessary to produce scientific findings in research.
Vehicles:
• An database of scientific information, which can be found by journalists via an on-line search: online scientific references
• It should provide information which is scientifically correct and which is translatable into lay terms
• Possible resource for setting up such a database: Open Knowledge Foundation’s Open Science working group for encouraging creative commons for publishable scientific research
2. Festival
Sil
ver
(Sta
keh
old
ers'
co
mm
un
ity
sh
ou
ld d
o)
Aim:
Bring together key actors from the media, scientific and artistic circles, as well as members of the lay public, at one large and “loud” event, attracting media attention.
Challenge: The festival should facilitate collaboration between scientists, artists and journalists, as communities of practice which are strongly connected. In addition, the communication of “Nano” at this event should be thematically framed: a variation of communication contexts will increase relevance to a larger number of publics.
Vehicles:
• A Round Table moderated by a journalist comprising scientists and representatives from NGOs
48
• Sessions for simultaneous training of journalists and scientists in science communication
• The concept of the NanoBioRaise “Advanced Courses on Public Communication and Applied Ethics of Nanotechnology” at Oxford could be used as a template for this session. Participants in these courses received training in writing, speaking, debating and preparing communication plans related to nanotechnology.
• Science-Art exhibition put together by an interdisciplinary team of scientists, curators, exhibition organisers and script writers
• The festival event could draw on the idea of BIOPOP, whereby tents were set up for 2 days in the main squares of Bologna (Italy) and Delft (the Netherlands) and young scientists fielded questions and comments from members of the public
Themes to frame Nano communication (interdisciplinary focus):
I. Food and Health
II. Environment and Sustainability
III. Nanomedicine
3. Street labs/ Labs in motion
Bro
nze
(S
tak
eho
lder
s' c
om
mu
nit
y
cou
ld d
o)
Aim: To bring together key actors from the media, scientific and artistic circles, as well as members of the lay public, at street lab events.
Challenge: These experiences should facilitate contact and collaboration between scientists, artists and journalists. At this event, the communication should be thematically framed.
Vehicles:
• Sessions of street labs for simultaneous communication to journalists and scientists in science communication;
• The concept is similar to that of the NanoBioRaise, which has proven highly successful;
• Science-Art exhibition put together by an interdisciplinary team of scientists, curators, exhibition organisers and script writers.
Themes to frame Nano communication (interdisciplinary focus):
I. Food and Health II. Environment and Sustainability
III. Nanomedicine
49
Key Messages:
Green:
• Interest-driven communication (communicating Nano in a thematic frame).
Yellow:
• Addressing hypes. Red: The following terms are highly subjective, interpretative, thus they can increase the risk of biased expectations, over-selling scientific development:
• "Better future”; • "Benefits”.
Media and Lay Public: Dialogue actions
1. Podcasts of Radio Segments on Nano
Go
ld
(Sta
ke
ho
lde
rs'
com
mu
nit
y
mu
st d
o)
Aim:
To give the lay public time to engage in dialogue.
• Ensure that communication on Nano via the radio is pod-casted.
• Podcasts give members of the lay public the opportunity for increased reflection, thereby empowering them to engage in dialogue.
50
2. Regular Journalist TCS (software developed) or Webinars
Sil
ver
(Sta
ke
ho
lde
rs'
com
mu
nit
y sh
ou
ld d
o)
Aim:
To facilitate the work of journalists involved in journalistic collaboration for EC-funded projects (such as Nanochannels).
• Regular teleconferences or webinars, chaired by a representative of the project and attended by the journalists involved in the project.
• This would ensure that each journalist is kept up-to-speed and that they have direct access to the project information they require.
3.Open Laboratory exchanges
Bro
nze
(S
tak
eho
lder
s' c
om
mu
nit
y
cou
ld d
o)
Aim:
To increase synergies between EC-funded projects (such as TimeForNano).
• Scientists working in Open Labs in participating science museums could travel to other participating centres to visit their laboratories.
• This would facilitate communication of best practices in the Open Laboratories.
• It would also further motivate the participating scientists in their science communication work for the Open Laboratories.
Key Messages:
Green:
• Interest-driven dialogue. Yellow:
• Hype and overstatements. Red: The following issues are highly subjective and could jeopardise the impartiality:
• "Better future” • “Benefits”
51
Media and Lay Public: Education actions
1. Cross-training: Scientists & Journalists G
old
(S
tak
eh
old
ers
' co
mm
un
ity
mu
st d
o)
Aim:
Aiming to ensure that scientific publications on Nano can be accessed by journalists.
Vehicles:
• Session for scientists and journalists addressing referencing, teaching scientists to use key words in referencing their publications often used in searches by journalists
• Perhaps new reference systems are needed for research on uncertain topics such as nano: it may be necessary to integrate them into an initiative for emerging technologies which includes biotechnology.
2. Journalists in the Lab
Sil
ver
(Sta
keh
old
ers'
co
mm
un
ity
sh
ou
ld d
o)
Aim: To provide journalists with first-hand knowledge of scientific lab research and to thereby facilitate communication between two communities of practice: scientists and journalists.
Vehicles:
• A “Journalists in the Lab” Workshop
• Such a workshop could be based on the concept of the Wellcome Trust SciArt10 project, where scientists and artists were brought together. In a similar manner, journalists and scientists can be encouraged to work together. The exercise would imply an effort to adjust to a different professional community, with its methods and specific language. “Translating” ideas and making them comprehensible for someone outside the scientific community would be a positive challenge.
52
3. Open lab exchange scheme B
ron
ze
(Sta
ke
ho
lde
rs'
com
mu
nit
y co
uld
do
) Aim: To provide journalists with first-hand education in scientific lab research and to thereby facilitate communication between scientists and journalists.
Vehicles:
• A “Journalists in the Lab” exchange scheme
• Such a scheme could, again, bring scientists and artists together for a longer period of time.
Key Messages: Green:
• Interest-driven education in a thematic frame. Yellow:
• Overstatements. Red:
• Any terminology that could lead to bias.
53
7. ANNEX
7.1. LIST OF ATTENDEES
EXPERTS PARTICIPATING IN EC-FUNDED COMMUNICATION PROJECTS • Dr. Yoel Rothschild, ORT (Coordinator of EC projects NANOYOU and
NANOCHANNELS (IL)
• Dr. Luisa Filipponi, iNano (DK)
• Dr. Alessandra Drioli, Fondazione IDIS, Coordinator of EC project
TIMEFORNANO (IT)
• Dr. Jurij Pavlica, Zavod za Sodobno Umetnost (SI)
• Dr. Sendi Mango, Art center Kulturni dom Nova Gorica (SI)
• Dr. Maria Chiara Aspden, freelance journalist (IT)
• Dr. Elvio Mantovani, AIRI/Nanotec Italian Centre for Nanotechnology,
Coordinator of EC project NANOCODE (IT)
• Dr. Paul Hix, Deutsches Museum Coordinator of EC project NANOTOTOUCH
(DE)
• Dr. Pieter van Broekhuizen, IVAM UvA BV, Coordinator of EC project
NANOCAP (NL)
• Dr. Tom Kersevan, freelance curator artist, BridA (SI)
• Dr. Agueda Gras-Velasquez, European Schoolnet (BE)
• Prof. Phil Macnagthen, Durham University, Coordinator of EC project
DEEPEN (UK)
• Prof. Marcello Cacace, Project Technical Assistant for EC nanotechnology
projects (IT)
• Prof. Eivind Stø, National Institute for Consumer Research in Norway,
Coordinator of EC project NANOPLAT (NO)
54
EXTERNAL COMMUNICATION EXPERTS
• Dr. Daan Schuurbiers, The Pilot Plant (De Proeffabriek), Coordinator of EC
project NANOBIORAISE (NL)
• Dr. Yves Sacquin, CEA (FR)
• Dr. Antje Grobe, University of Stuttgart (DE)
• Julia Bankulevic, Lietuvos Mokiniu Informavimo ir Technines Kurybos (LT)
• Dr. Matteo Merzagora, TRACES (FR)
• Dr. Neelina Malsch, Malsch TechnoValuation (NL)
• Jennifer Millar, University of Sydney (AUS) and Zeppelin University (DE)
• Maria Neicu, University of Amsterdam (NL) and Warwick University (UK).
EC STAFF:
• Christos Tokamanis (EC, DG RTD, Head of Unit Nano sciences and Nano
technologies)
• Pascale Dupont (EC, DG RTD)
• Anne-Marie Cuesta-Caso (EC, DG RTD)
• Cristina Gabellieri (EC, DG RTD)
• Philippe Martin (EC, DG SANCO)
• Philippe Galiay (EC, DG RTD, SiS)
• Matteo Bonazzi (EC, DG RTD).
55
7.2. ACKNOWLEDGEMENTS
We are particularly grateful to all participants of the workshop, whose names are indicated
in the Annex, whose precious contributions and collaborative spirit has allowed us to carry
out this stimulating collective exercise: their inputs, efforts and enthusiasm have inspired
and enabled us to conceive, develop and write this book. We are also very grateful to the
Members of the NMP configuration of the Programme Committee 'Cooperation' and to the
Members of the NMP High Level Group who had the opportunity to examine and comment
the draft report of the workshop: their feedback has enabled us to refine and produce this
final version.
56
European Commission
EUR 25361 — Reaching Out to the Future - Outline of Proposals for Communication Outreach, Dialogue and Education on Nanotechnology
Luxembourg: Publications Office of the European Union
2013 — 58 pp. — format, A4, 21 x 29.7 cm
ISBN 978-92-79-25114-6
doi 10.2777/2838
How to obtain EU publications
Free publications:
• via EU Bookshop (http://bookshop.europa.eu);
• at the European Commission's representations or delegations. You can obtain their contact details on the Internet (http://ec.europa.eu) or by sending a fax to +352 2929-42758.
Priced publications:
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Priced subscriptions (e.g. annual series of the Official Journal of the
European Union and reports of cases before the Court of the
Justice of the European Union):
• via one of the sales agents of the Publications Office of the European Union
(http://publications.europa.eu/others/agents/index_en.htm).
This report stems from a dedicated workshop delivering a fresh perspective about nanotechnology
communication to the extent that it ranked several possible priority interventions. It reviewed best
practices developed by European funded projects. Different recommendations are summed up in
this publication, offering an expert insight of in this field. Outreach, Dialogue and Education
activities have been identified by the community of stakeholders (research community, NGOs,
industry, policy-makers, media), targeting three social groups: young people, industry and civil
society organisations, media and lay public.
Studies and Reports
978-92-79-25114-6